Inhibition of SRF/myocardin reduces aortic stiffness by targeting vascular smooth muscle cell stiffening in hypertension

Ning Zhou; Jia Jye Lee; Shaunrick Stoll; Ben Ma; Robert Wiener; Charles Wang; Kevin D. Costa; Hongyu Qiu

doi:10.1093/cvr/cvw222

Inhibition of SRF/myocardin reduces aortic stiffness by targeting vascular smooth muscle cell stiffening in hypertension

Ning Zhou, Jia Jye Lee, Shaunrick Stoll, Ben Ma, Robert Wiener, Charles Wang, Kevin D. Costa, Hongyu Qiu

Research output: Contribution to journal › Article › peer-review

Abstract

AIMS: Increased aortic stiffness is a fundamental manifestation of hypertension. However, the molecular mechanisms involved remain largely unknown. We tested the hypothesis that abnormal intrinsic vascular smooth muscle cell (VSMC) mechanical properties in large arteries, but not in distal arteries, contribute to the pathogenesis of aortic stiffening in hypertension, mediated by the serum response factor (SRF)/myocardin signalling pathway.

METHODS AND RESULTS: Four month old male spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats were studied. Using atomic force microscopy, significant VSMC stiffening was observed in the large conducting aorta compared with the distal arteries in SHR (P < 0.001), however, this regional variation was not observed in WKY rats (P > 0.4). The increase of VSMC stiffness was accompanied by a parallel increase in the expression of SRF by 9.8-fold and of myocardin by 10.5-fold in thoracic aortic VSMCs from SHR vs. WKY rats, resulting in a significant increase of downstream stiffness-associated genes (all, P < 0.01 vs. WKY). Inhibition of SRF/myocardin expression selectively attenuated aortic VSMC stiffening, and normalized downstream targets in VSMCs isolated from SHR but not from WKY rats. In vivo, 2 weeks of treatment with SRF/myocardin inhibitor delivered by subcutaneous osmotic minipump significantly reduced aortic stiffness and then blood pressure in SHR but not in WKY rats, although concomitant changes in aortic wall remodelling were not detected during this time frame.

CONCLUSIONS: SRF/myocardin pathway acts as a pivotal mediator of aortic VSMC mechanical properties and plays a central role in the pathological aortic stiffening in hypertension. Attenuation of aortic VSMC stiffening by pharmacological inhibition of SRF/myocardin signalling presents a novel therapeutic strategy for the treatment of hypertension by targeting the cellular contributors to aortic stiffness.

Original language	English
Pages (from-to)	171-182
Number of pages	12
Journal	Cardiovascular Research
Volume	113
Issue number	2
DOIs	https://doi.org/10.1093/cvr/cvw222
State	Published - Feb 2017

ASJC Scopus Subject Areas

General Medicine

Keywords

Atomic force microscopy
Hypertension
Myocardin
Serum response factor
Vascular smooth muscle cell stiffness
Hypertension/genetics
Vascular Stiffness/drug effects
Arterial Pressure/drug effects
Rats, Inbred WKY
Male
Aorta, Thoracic/metabolism
Transcription Factors/antagonists & inhibitors
Nuclear Proteins/antagonists & inhibitors
Microscopy, Atomic Force
Disease Models, Animal
Rats, Inbred SHR
Antihypertensive Agents/administration & dosage
Cells, Cultured
Signal Transduction/drug effects
Infusions, Subcutaneous
Muscle, Smooth, Vascular/metabolism
Animals
Myocytes, Smooth Muscle/metabolism
Nipecotic Acids/administration & dosage
Trans-Activators/antagonists & inhibitors

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title = "Inhibition of SRF/myocardin reduces aortic stiffness by targeting vascular smooth muscle cell stiffening in hypertension",

abstract = "AIMS: Increased aortic stiffness is a fundamental manifestation of hypertension. However, the molecular mechanisms involved remain largely unknown. We tested the hypothesis that abnormal intrinsic vascular smooth muscle cell (VSMC) mechanical properties in large arteries, but not in distal arteries, contribute to the pathogenesis of aortic stiffening in hypertension, mediated by the serum response factor (SRF)/myocardin signalling pathway.METHODS AND RESULTS: Four month old male spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats were studied. Using atomic force microscopy, significant VSMC stiffening was observed in the large conducting aorta compared with the distal arteries in SHR (P < 0.001), however, this regional variation was not observed in WKY rats (P > 0.4). The increase of VSMC stiffness was accompanied by a parallel increase in the expression of SRF by 9.8-fold and of myocardin by 10.5-fold in thoracic aortic VSMCs from SHR vs. WKY rats, resulting in a significant increase of downstream stiffness-associated genes (all, P < 0.01 vs. WKY). Inhibition of SRF/myocardin expression selectively attenuated aortic VSMC stiffening, and normalized downstream targets in VSMCs isolated from SHR but not from WKY rats. In vivo, 2 weeks of treatment with SRF/myocardin inhibitor delivered by subcutaneous osmotic minipump significantly reduced aortic stiffness and then blood pressure in SHR but not in WKY rats, although concomitant changes in aortic wall remodelling were not detected during this time frame.CONCLUSIONS: SRF/myocardin pathway acts as a pivotal mediator of aortic VSMC mechanical properties and plays a central role in the pathological aortic stiffening in hypertension. Attenuation of aortic VSMC stiffening by pharmacological inhibition of SRF/myocardin signalling presents a novel therapeutic strategy for the treatment of hypertension by targeting the cellular contributors to aortic stiffness.",

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author = "Ning Zhou and Lee, {Jia Jye} and Shaunrick Stoll and Ben Ma and Robert Wiener and Charles Wang and Costa, {Kevin D.} and Hongyu Qiu",

note = "Publisher Copyright: {\textcopyright} 2016 The Author.",

year = "2017",

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doi = "10.1093/cvr/cvw222",

language = "English",

volume = "113",

pages = "171--182",

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T1 - Inhibition of SRF/myocardin reduces aortic stiffness by targeting vascular smooth muscle cell stiffening in hypertension

AU - Zhou, Ning

AU - Lee, Jia Jye

AU - Stoll, Shaunrick

AU - Ma, Ben

AU - Wiener, Robert

AU - Wang, Charles

AU - Costa, Kevin D.

AU - Qiu, Hongyu

PY - 2017/2

Y1 - 2017/2

N2 - AIMS: Increased aortic stiffness is a fundamental manifestation of hypertension. However, the molecular mechanisms involved remain largely unknown. We tested the hypothesis that abnormal intrinsic vascular smooth muscle cell (VSMC) mechanical properties in large arteries, but not in distal arteries, contribute to the pathogenesis of aortic stiffening in hypertension, mediated by the serum response factor (SRF)/myocardin signalling pathway.METHODS AND RESULTS: Four month old male spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats were studied. Using atomic force microscopy, significant VSMC stiffening was observed in the large conducting aorta compared with the distal arteries in SHR (P < 0.001), however, this regional variation was not observed in WKY rats (P > 0.4). The increase of VSMC stiffness was accompanied by a parallel increase in the expression of SRF by 9.8-fold and of myocardin by 10.5-fold in thoracic aortic VSMCs from SHR vs. WKY rats, resulting in a significant increase of downstream stiffness-associated genes (all, P < 0.01 vs. WKY). Inhibition of SRF/myocardin expression selectively attenuated aortic VSMC stiffening, and normalized downstream targets in VSMCs isolated from SHR but not from WKY rats. In vivo, 2 weeks of treatment with SRF/myocardin inhibitor delivered by subcutaneous osmotic minipump significantly reduced aortic stiffness and then blood pressure in SHR but not in WKY rats, although concomitant changes in aortic wall remodelling were not detected during this time frame.CONCLUSIONS: SRF/myocardin pathway acts as a pivotal mediator of aortic VSMC mechanical properties and plays a central role in the pathological aortic stiffening in hypertension. Attenuation of aortic VSMC stiffening by pharmacological inhibition of SRF/myocardin signalling presents a novel therapeutic strategy for the treatment of hypertension by targeting the cellular contributors to aortic stiffness.

AB - AIMS: Increased aortic stiffness is a fundamental manifestation of hypertension. However, the molecular mechanisms involved remain largely unknown. We tested the hypothesis that abnormal intrinsic vascular smooth muscle cell (VSMC) mechanical properties in large arteries, but not in distal arteries, contribute to the pathogenesis of aortic stiffening in hypertension, mediated by the serum response factor (SRF)/myocardin signalling pathway.METHODS AND RESULTS: Four month old male spontaneously hypertensive rats (SHR) and normotensive Wistar-Kyoto (WKY) rats were studied. Using atomic force microscopy, significant VSMC stiffening was observed in the large conducting aorta compared with the distal arteries in SHR (P < 0.001), however, this regional variation was not observed in WKY rats (P > 0.4). The increase of VSMC stiffness was accompanied by a parallel increase in the expression of SRF by 9.8-fold and of myocardin by 10.5-fold in thoracic aortic VSMCs from SHR vs. WKY rats, resulting in a significant increase of downstream stiffness-associated genes (all, P < 0.01 vs. WKY). Inhibition of SRF/myocardin expression selectively attenuated aortic VSMC stiffening, and normalized downstream targets in VSMCs isolated from SHR but not from WKY rats. In vivo, 2 weeks of treatment with SRF/myocardin inhibitor delivered by subcutaneous osmotic minipump significantly reduced aortic stiffness and then blood pressure in SHR but not in WKY rats, although concomitant changes in aortic wall remodelling were not detected during this time frame.CONCLUSIONS: SRF/myocardin pathway acts as a pivotal mediator of aortic VSMC mechanical properties and plays a central role in the pathological aortic stiffening in hypertension. Attenuation of aortic VSMC stiffening by pharmacological inhibition of SRF/myocardin signalling presents a novel therapeutic strategy for the treatment of hypertension by targeting the cellular contributors to aortic stiffness.

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KW - Arterial Pressure/drug effects

KW - Rats, Inbred WKY

KW - Male

KW - Aorta, Thoracic/metabolism

KW - Transcription Factors/antagonists & inhibitors

KW - Nuclear Proteins/antagonists & inhibitors

KW - Microscopy, Atomic Force

KW - Disease Models, Animal

KW - Rats, Inbred SHR

KW - Antihypertensive Agents/administration & dosage

KW - Cells, Cultured

KW - Signal Transduction/drug effects

KW - Infusions, Subcutaneous

KW - Muscle, Smooth, Vascular/metabolism

KW - Animals

KW - Myocytes, Smooth Muscle/metabolism

KW - Nipecotic Acids/administration & dosage

KW - Trans-Activators/antagonists & inhibitors

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Inhibition of SRF/myocardin reduces aortic stiffness by targeting vascular smooth muscle cell stiffening in hypertension

Abstract

ASJC Scopus Subject Areas

Keywords

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